Modeling the Simultaneous Effects of Microwave and Ultrasound Treatments on Sour Cherry Juice Using Response Surface Methodology

Abstract

This study aimed to examine the effectiveness of co mbined microwave-ultrasonic pasteurization system on Escherichia coli and vitamin C content in sour cherry juice (SCJ). Based on the findings, microwave output powe r, ultrasound power, and ultrasonic exposure time as well as the microwave-induced temp erature were the most effective factors in reducing E. coli and vitamin C content. In addition, the microwave-i nduced temperature and ultrasonic exposure time, as indepe ndent variables, were both effective on E. coli removal. At higher temperatures, the effectiveness of ultrasonic waves as well as cavitation intensity declined. However, their combi ned effect (ultrasound and temperature) was more significant than their indivi dual effect. It was also found that any increase in ultrasound power, ultrasonic exposure t ime, and microwave output power led to a significant reduction in vitamin C content, wh ile the ultrasound power was the most effective. On the basis of RSM modeling, the optimum processing condition was: 35 2.21W microwave output power, 49.94 ̊C temperature, 475.13 W ultrasound power and 6 minutes of exposure time. On the basis of response surface methodology (RSM) modelling, the maximum vitamin C content was 142.5 mg per 100 mL w ith no remaining E. coli . Keywords: Cavitation, Microwave output power, Pasteurization, Ultrasound power.